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Climate Crisis: Terraforming the Desert

Now that I’m back from my European adventure, I finally have the time to catch up on some news stories that were breaking earlier in the month. And between posting about said adventure, I thought I might read up and post up on them, since they are all quite interesting to behold. Take, for example, this revolutionary idea that calls for the creation of a rolling city that has one purpose in mind: to replant the deserts of the world.

Desertification is currently one of the greatest threats facing humanity. Every year, more than 75,000 square kilometers (46,000 square miles) of arable land turns to desert. As deserts spread – a process that is accelerating thanks to climate change and practices like clear-cutting – the UN estimates that more than 1 billion people will be directly affected. Many of them, living in places like Northern Africa and rural China, are already struggling with poverty, so the loss of farmland would be especially hard to handle.

As a result, scientists are looking to come up with creative solutions to the problem. One such concept is the Green Machine – a floating, self-powered platform that would act as a mobile oasis. Rolling on treads originally designed to move NASA rockets. Designed by Malka Architecture and Yachar Bouhaya Architecture for the Venice Biennial, this mobile city would roam the drylands and plant seeds in an effort to hold back the desert.

The huge platform would be mounted on sixteen caterpillar treads originally made to move NASA rockets, while giant floating balloons that hover from it capture water condensation. As the first treads roll over the soil, the machine uses a little water from the balloons to soften the ground while the last set of treads injects seeds, some fertilizer, and more water. The entire platform would run on renewable power, using a combination of solar towers, wind turbines, and a generator that uses temperature differences in the desert to creates electricity.

The machine could theoretically capture enough energy that it can self-support an entire small city onboard, complete with housing, schools, businesses, parks, and more farmland to grow produce for the local area. This city would house and support the many researchers, agronomers, workers and their families that would be needed to oversee the efforts. Similar to what takes place in oil drilling, these individuals could be flown in for periods of work that could last up to sixth weeks at a time before rotating out.

The designers were inspired by Allan Savory, who has proposed a much lower-tech version of the same process that relied on cattle to naturally till and fertilize the soil. For the architects, building on this idea seemed like a natural extension of their work. If the machine went into action at desert borders, the designers say it could help formerly barren soil produce 20 million tons of crops each year, and could even help slow climate change by capturing carbon in soil.

Over time, biodiversity could also gradually return to the area. The architects are currently working on developing the project on the Moroccan side of the Sahara Desert. As Stephane Malka, founder of Malka Architecture, put it, it’s all about using the neglected parts of the world to plan for humanity’s future:

For a long time, my studio has developed work around neglected spaces of the city. Deserts are the biggest neglected space on Earth, as they represent more than 40% of the terrestrial surface. Building the Green Machine units would be able to re-green half of the desert borders and the meadows of the world, while feeding all of humanity

As to the sheer size of their massive, treaded city, the designers stressed that it was merely an extension of the challenge it is seeking to address. Apparently, if you want to halt a worldwide problem, you need a big-ass, honking machine!

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Cattle that grazed according to Savory’s method needed expensive supplemental feed, became stressed and fatigued, and lost enough weight to compromise the profitability of their meat. And even though Savory’s Grazing Trials took place during a period of freakishly high rainfall, with rates exceeding the average by 24 percent overall, the authors contend that Savory’s method “failed to produce the marked improvement in grass cover claimed from its application.” The authors of the overview concluded exactly what mainstream ecologists have been concluding for 40 years: “No grazing system has yet shown the capacity to overcome the long-term effects of overstocking and/or drought on vegetation productivity.”